The status of Fusarium mycotoxins in Sub-Saharan Africa : a review of emerging trends and post-harvest mitigation strategies towards food control

Fusarium fungi are common plant pathogens causing several plant diseases. The presence of these molds in plants exposes crops to toxic secondary metabolites called Fusarium mycotoxins. The most studied Fusarium mycotoxins include fumonisins, zearalenone, and trichothecenes. Studies have highlighted the economic impact of mycotoxins produced by Fusarium. These arrays of toxins have been implicated as the causal agents of wide varieties of toxic health effects in humans and animals ranging from acute to chronic. Global surveillance of Fusarium mycotoxins has recorded significant progress in its control; however, little attention has been paid to Fusarium mycotoxins in sub-Saharan Africa, thus translating to limited occurrence data. In addition, legislative regulation is virtually non-existent. The emergence of modified Fusarium mycotoxins, which may contribute to additional toxic effects, worsens an already precarious situation. This review highlights the status of Fusarium mycotoxins in sub-Saharan Africa, the possible food processing mitigation strategies, as well as future perspectives

Occurrence of Fusarium mycotoxins in cereal crops and processed products (ogi) from Nigeria

In Nigeria, maize, sorghum, and millet are very important cash crops. They are consumed on a daily basis in different processed forms in diverse cultural backgrounds. These crops are prone to fungi infestation, and subsequently may be contaminated with mycotoxins. A total of 363 samples comprising of maize (136), sorghum (110), millet (87), and ogi (30) were collected from randomly selected markets in four agro-ecological zones in Nigeria. Samples were assessed for Fusarium mycotoxins contamination using a multi-mycotoxin liquid chromatography-tandem mass spectrometry (LC-MS/MS) method. Subsequently, some selected samples were analysed for the occurrence of hidden fumonisins. Overall, 64% of the samples were contaminated with at least one toxin, at the rate of 77%, 44%, 59%, and 97% for maize, sorghum, millet, and ogi, respectively. Fumonisins were the most dominant, especially in maize and ogi, occurring at the rate of 65% and 93% with mean values of 935 and 1128 mu g/kg, respectively. The prevalence of diacetoxyscirpenol was observed in maize (13%), sorghum (18%), and millet (29%), irrespective of the agro-ecological zone. Other mycotoxins detected were deoxynivalenol, zearalenone, and their metabolites, nivalenol, fusarenon-X, HT-2 toxin, and hidden fumonisins. About 43% of the samples were contaminated with more than one toxin. This study suggests that consumption of cereals and cereal-based products, ogi particularly by infants may be a source of exposure to Fusarium mycotoxins

Risk Assessment of Mycotoxins in Stored Maize Grains Consumed by Infants and Young Children in Nigeria

Maize is a major complimentary food for infants (0–4years) and young children (5–12years) in Nigeria. In this study, we assessed the risk of exposure of infants and young children (IYC) to some major mycotoxins in stored maize grains from five agro-ecological zones of Nigeria. The probable daily intake approach was employed to determine exposure to five mycotoxins while the margin of exposure (MOE) and population at risk of primary hepatocellular carcinoma approaches were used to characterize the risk of consuming aflatoxin contaminated maize. Infants and young children in the Derived Savannah zone are more exposed to aflatoxins, ochratoxins, and zearalenone while those in the Northern Guinea Savanna zone are mainly exposed to deoxynivalenol and fumonisins. The mean national MOE for infants and children were 0.12 and 0.3 respectively while the risk of developing primary liver cancer was estimated at 152.7 and 61.1 cancer/year/100,000 population of infants and children, respectively. Infants and young children consuming mycotoxin contaminated maize in Nigeria are therefore vulnerable to the adverse health effects. Mycotoxin contamination of maize is still a challenge in Nigeria; mitigation efforts should target the value chain and stricter tolerable limits should be enforced

Learning Creative Arts via Instructional Television

Television is an audio-visual box initially meant for entertainment, but it has developed to become a potential tool for instructions globally. The objectives of this study were to: identify television programme watched by the students and the students’ response to creative arts learning via instructional television. The research used a descriptive cross-sectional survey method, and purposive sampling was employed to sample 10 schools in Ibadan metropolis, Nigeria. During the study questionnaire was administered to 350 students. The research question was answered and hypotheses tested using ANCOVA, and the t-test. The study concluded that the students fell about positive the use of television for learning in creative arts and the students should be encouraged to watch educational and enlightening programmes on television

Fate of Fusarium mycotoxins during processing of Nigerian traditional infant foods (ogi and soybean powder)

The influence of processing methods used to produce traditional Nigerian infant foods (ogi and processed soybean powder) on four European Union regulated Fusarium mycotoxins using naturally and artificially contaminated raw materials was studied using liquid chromatography-tandem mass spectrometry. Generally, there was a significant reduction of all the mycotoxins when compared to the initial concentration of the raw materials. Reduction in concentrations of the mycotoxins during ogi-processing started immediately after 36 h' steeping/fermentation for all the mycotoxins (fumonisin B-1, zearalenone, deoxynivalenol, and T-2 toxin), and proceeded along the process chain (milling and sieving). In addition, deoxynivalenol-3-glucoside (16 +/- 3.2 mu g/kg) and 3-acetyl-deoxynivalenol (9 +/- 5.5 mu g/kg) initially absent in the raw maize were detected in the final ogi product. beta-zearalenol, hydrolysed fumonisin B-1, and HT-2 toxin were also detected at varying concentrations. Regarding soybean processing, a similar trend was observed with fumonisin B-1, zearalenone, deoxynivalenol, and T-2 toxin, irrespective of the method used or the initial concentration. Other mycotoxins detected in soybean product include 3-acetyl-deoxynivalenol, 15-acetyl-deoxynivalenol, deoxynivalenol-3-glucoside, HT-2 toxin, neosolaniol, alpha-zearalenol, beta-zearalenol, and zearalenone-14-glucoside. Although there was a reduction in the concentration of the free mycotoxin because of processing, other mycotoxins were detected in the products and thus, may present an additional health risk on consumers

Stability of fumonisin B-1, deoxynivalenol, zearalenone, and T-2 toxin during processing of traditional Nigerian beer and spices

The stability of the Fusarium mycotoxins fumonisin B-1, deoxynivalenol, T-2 toxin, and zearalenone during processing of Nigerian traditional spices (dawadawa, okpehe, and ogiri) and beer (burukutu) using artificially contaminated raw materials was investigated. Results revealed the reduction of these toxins in all the final products. Boiling played a significant role (p < 0.05) in Fusarium mycotoxin reduction in the traditional spices. The highest percentage reduction of deoxynivalenol (76%) and zearalenone (74%) was observed during okpehe processing (boiled for 12h). Dehulling and fermentation further demonstrated a positive influence on the reduction of these toxins with a total reduction ranging from 85 to 98% for dawadawa, 86 to 100% for okpehe, and 57 to 81% for ogiri. This trend was also observed during the production of traditional beer (burukutu), with malting and brewing playing a major impact in observed reduction. In addition, other metabolites including deoxynivalenol-3-glucoside, 15-acetyl-deoxynivalenol, alpha-zearalenol, and beta-zearalenol which were initially not present in the raw sorghum were detected in the final beer product at the following concentrations 26 +/- 11, 16 +/- 7.7, 22 +/- 18, and 31 +/- 16 mu g/kg, respectively. HT-2 toxin was also detected at a concentration of 36 +/- 13 mu g/kg along the processing chain (milled malted fraction) of the traditional beer. For the traditional spices, HT-2 toxin was detected (12 mu g/kg) in ogiri. Although there was a reduction of mycotoxins during processing, appreciable concentrations of these toxins were still detected in the final products. Thus, the use of good quality raw materials significantly reduces mycotoxin contamination in final products